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This chapter describes how to manage the samples' information accessible from the Navigation Tree. Topics in this chapter includetoc

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Sample composition records information associated with the way a sample is made, especially in terms of its different parts, its constituents. Composition for a sample in caNanoLab consists of information categorized by nanomaterial entity, functionalizing entity, and chemical association(s). You can also add files relevant to the sample composition or derivation of its data.

  • Nanomaterial Entity  composition describes the component of a sample that is a nanoparticle.
  • Functionalizing Entity  composition describes the substance, physical or biological factor, etc. of the sample that produces a specific effect.
  • Chemical Association  composition annotations describes the chemical association(s) of the nanoparticle/functionalizing entities of the sample.
  • Composition File  enables you to add files relevant to the sample independently of the entity or chemical associations.

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If you have read-only access, you can review the sample composition summary.

To access characterization functions in the Navigation Tree

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Click Composition.  
The All tab displays compositions already added to the sample by category. Additional tabs show items added to the sample for each subcategory.
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Exporting Sample Information to JSON or XML

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To add a nanomaterial entity

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Click the Nanomaterial Entity tab or the All tab and click Add next to Nanomaterial Entity.

Both tabs provide customizations based on your Nanomaterial Entity Type* selection.

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Select the entity type (required) and add a Description for the entity.

Note:  Entity types are described in the caNanoLab Glossary.

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  • Bipolymer
  • Carbon Nanotube
  • Dendrimer
  • Emulsion
  • Fullerene
  • Lipsome
  • Polymer

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Click Add to expand the page to add one or more files whose data is relevant to the nanomaterial entity or the derivation of its data.

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When you are finished, click Submit to save the data to the sample.

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Defining Nanomaterial Entity Properties

If you selected one of the Nanomaterial Entity Types listed in the following table, the Properties section opens, and you must fill in additional information.

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Biopolymer

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Carbon Nanotube

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  1. Enter the Average Length of the nanotube.
  2. Enter the Length Unit of measurement for the average length measurement of the nanotube.
  3. The spatial position or orientation of functional groups located within a molecule.
    • Enter information about the Chirality in the nanotube and its effect on the orientation of functional groups located on the particle.
  4. Enter the measurement of the nanotube Diameter, as measured from one side of the tube wall through the center of the nanotube to the opposite point on the circumference.
  5. Enter the Diameter Unit of measurement for the nanotube diameter.
  6. Select the appropriate description of the nanotube Wall Type.
    • DWNT (Double-Wall Nanotube) Nanotube wall consists of two layers of graphitic carbon.
    • MWNT (Multiple-Wall Nanotube) Nanotube consists of single-walled nanotubes layered inside each other
    • SWNT (Single-wall Nanotube) Wall consists of a single layer of graphitic carbon

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Dendrimer

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Branches are molecules that branch off of the core (like tree branches).

  • Enter a description that represents the number of Branches in the dendrimer.

Generations are shells layered on the core of a dendrimer. Dendrimers consist of layers of chemical shells built on a core module. Each shell consists of two chemicals in the same order (A-B) and each shell is called a generation. The generations are labeled in decimal to illustrate the shell layering/consistency. For example, Generation 2.5 (G2.5) = 1 shell of A-B (1), surrounded by a second shell of A-B (2), topped off with only one chemical A within the shell (.5). As such, the layering structure would be (A-B, A-B, A) = 2.5.

  • List the Generations reflected in this dendrimer.

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Emulsion

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  1. Specify whether the emulsion Is Polymerized (required). Polymerization consists of enzymatic reactions that link a series of monomers, forming a polymerized compound (polymer), usually of high molecular weight, by combination of simpler molecules (monomers).
  2. Enter the name of the polymer (Polymer Name) suspended in the emulsion (required).

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Fullerene

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  1. Enter the Average Diameter measurement, as measured from one side of the nanoparticle through its center to the opposite point on the circumference.
  2. Enter the Average Diameter Unit of measurement for the fullerene diameter.
  3. Enter the Number of Carbon molecules comprising the fullerene.

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Liposome

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  1. Enter the name of the liposome polymer (Polymer Name).
  2. Polymerization consists of enzymatic reactions that link a series of monomers, forming a polymerized compound (polymer), usually of high molecular weight, by combination of simpler molecules (monomers).

    • Specify Yes or No to indicate whether the liposome Is Polymerized or not (require).

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Polymer

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  1. In Initiator , enter the agent that initiated the polymerization. Examples are free radicals or peroxide.
  2. Crosslinking is a covalent bond between two polymers or two different regions of the same polymer.
    • Specify Yes or No to indicate whether the polymer Is Crosslinked.
  3. In Crosslink Degree, enter the percentage level of covalent linkage in the polymer.
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Defining Nanomaterial Composing Elements

Define the following composing elements for the nanomaterial entity.

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Select the type of composing element comprising this nanomaterial (required).

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Inherent function is the characteristic behavior of a sample that results from the chemical and physical composition and properties of the entity.

Click Add to expand the page where you can enter this information.

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When you are finished, click Save or Cancel to close the section without saving.

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To add a functionalizing entity

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Both tabs provide customizations based on your Functionalizing Entity Type* selection.

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Fill in the general information about the functionalizing entity.

Note:  Entity types are described in the caNanoLab Glossary.

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  • Antibody
  • Bipolymer
  • Small Molecule

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Add one or more files containing data that is relevant to the functionalizing entity or the derivation of its data.

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Select one or more samples in the list to which you want this composition data transferred. This option copies files and data to one or more selected samples "owned" by the same point of contact.

When you are finished, click Submit to save the data to the sample.

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Defining a Functionalizing Entity

Fill in the following functionalized entity information.

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Select the functionalizing entity type.

Note:  Entity types are described in the caNanoLab Glossary.

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Select the method used to activate the functionality of the sample from the list.

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If you do not have to activate the entity, select does not require activation.

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When you are finished, click Save or Cancel to close the section without saving.

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If you selected one of the Functionalizing Entity Types listed in the following table, the Properties section opens, and you must fill in additional information.

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Antibody

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  1. Select the Type of antibody functioning for this sample.
  2. Select the Isotype for this antibody.
  3. Select the animal Species from which the antibody was derived.

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Biopolymer

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Small Molecule

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Defining Function Information

Fill in the following inherent function information for the functionalizing entity.

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When you are finished, click Save or Cancel to close the section without saving.

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In the Navigation Tree, a hyperlink for the new Composition characterization is added under the Functionalizing Entity.

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You can enter basic annotation information describing the chemical association(s) of the sample and/or functionalizing entities of the sample.

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titleChemical association requirement

To enter chemical association information, you must enter at least two composing elements and/or at least one functionalizing entity to the sample entity.

To add a chemical association

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Access a sample and composition.

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Click the Chemical Association tab or the All tab and click Add next to Chemical Association.

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Both tabs provide customizations based on your Association Type* selection.

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Select a chemical association type (required).

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Enter any additional information that describes the chemical association of the two elements.

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In the Elements Information section, both Element boxes list the nanomaterial or functionalizing entities you defined while annotating the sample.

  1. Each time you select an option, a list displays entities relating to your previous selection.

  2. Select an option from each list.
    The arrow between the Element text boxes symbolizes the association between the two.

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Click Add to expand the page where you can add one or more files whose data is relevant to the functionalizing entity or the derivation of its data.

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When you are finished, click Submit to save the association to the sample.

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Adding Information to the Composition

The following procedures apply to any Characterization Type when you are adding or editing a characterization.

Adding Composition Files

You can add results in the form of supporting documents, such as a graphic, spreadsheet or images, to a sample or files relevant to the sample independent of the entity or chemical associations that you defined.

To add files to a sample

  1. Access a sample and composition.

  2. To add a file, click the Composition File tab or the All tab and scroll to the File section.

  3. Click Add next to File.

  4. Upload, browse, and select the file or enter the file's URL where the document is located.
  5. Complete the following.
    1. Select the File Type (required), Document, Graph, Image, Movie, or Spreadsheet.
    2. Enter the File Title (required).
    3. Specify Keywords to associate with the file
    4. Enter a Description of additional information of the file.

  6. When you are finished, click Submit to add the file(s) to the sample.

    Tip
    titleEditing and Deleting a File

    Once you add a composition file, you can remove the file or edit the composition file information.

    To delete a file, click Delete.

    To update the file information, click Edit and on the Edit Composition File page, make the changes and click Update. The list of files is updated.

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Copying to Samples in the Same Primary Organization

The composition files and/or derived data for a sample can be copied to other samples from the same primary point of contact.

  1. From the All tab's characterizations summary, click Edit at the right of a composition section.
  2. The Composition opens and at the bottom of the page, in the Copy to other samples... section, select one or more samples with the same primary point of contact.

  3. When you are finished, click Submit to copy the composition.

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Additional Composition Tasks

The following table lists tasks that require Curator privileges.

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If a button does not display, you have read-only access to the data.

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Printing a Composition(s)

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To print the composition(s), from the All tab composition summary, click Print at the top right of the page.

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Exporting Composition(s) to a Spreadsheet

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To export the composition(s) to a spreadsheet, from the All tab composition summary, click Export at the top right of the page.

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To export all sample information to JSON or XML, see Exporting Sample Information to JSON or XML.

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Editing a Composition

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  1. From the All tab's composition summary, click Edit at the right of the composition section you want to change.
  2. The Composition opens and you can edit it as needed.

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Deleting a Composition

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titleDeleting a composition

This deletes a composition(s) from the selected sample. If the composition(s) was copied to other samples, the composition is not removed from those samples.

To delete a composition for a selected sample

  1. From the All tab's composition summary, click Edit at the right of a composition section.
  2. The composition opens, and click Delete.
  3. The deleted composition is placed in the sample archive for historical purposes.

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